CN208980499U - Sewage disposal system based on Fenton technology - Google Patents

Abstract

It includes sequentially connected sandfiltration pot that the utility model, which discloses the sewage disposal system based on Fenton technology, has the structure of the pollutant in retention sewage；Fenton reactor generates hydroxyl radical free radical with hydroperoxidation using active carbon as catalyst；Reaction tank, for removing hydrogen peroxide extra in Fenton reactor；Clear water reserviors, for adjusting the pH value of sewage in it.This programme deft design, active carbon be both used as adsorbent or be used as catalyst, and one is enriched with form pollutant by suction-operated, reduces the content of pollutant；Activated carbon catalysis H simultaneously₂O₂Form OH free radical, sufficiently with pollutant reaction, degradation, greatly improve reaction efficiency, also, active carbon participates in reaction not as reactant during the reaction, and the amount of active carbon will not be reduced with reaction, therefore pharmaceutical use is greatly reduced, the troublesome operation for adding medicament repeatedly is eliminated, while reducing sludge yield, reduces operating cost.

Description

Sewage disposal system based on Fenton technology

Technical field

The utility model relates to sewage treatment fields, are based especially on the sewage disposal system of Fenton technology.

Background technique

Generated a large amount of industrial wastewaters in the industry such as chemical industry, light textile, pharmacy, plating, it is numerous with complicated component, type More, COD concentration is high, biodegradability is poor, the specified points such as poisonous and harmful will make environment such as without effectively controlling and administering At the pollution and destruction that can not be saved, therefore various sewage disposal technologies come into being.

Wherein Fenton class oxidation processes are exactly important research direction therein, and Fenton's reaction mainly passes through hydrogen peroxide (H₂O₂) with the mixed solution of ferrous ion will it is many known to organic compound such as carboxylic acid, alcohol, esters be oxidized to inorganic states, The ability with removal persistent organic pollutants is reacted, in dyeing waste water, oily waste water, phenol wastewater, coking wastewater, is contained Have in the wastewater treatments such as nitrobenzene waste water, diphenylamines waste water and is widely applied very much.

In Fenton class treatment process, it is considered as the place of most prospect that UV/Fenton technique, which is called light and helps Fenton technology, Reason technology is common Fenton technique and UV/H₂O₂Two kinds of systems it is compound, due to Fe²⁺With ultraviolet light to H₂O₂Catalysis point There are synergistic effect, light, and Fenton technology to be helped to reduce Fe for solution²⁺Dosage improves H₂O₂Utilization rate, improve reaction rate.

But main problem existing for the technique is:

(1) at high cost, easily formation secondary pollution.

Iron ion loss causes to need constantly to add phenanthroline in reaction process, and iron ion adds the color for increasing water Degree causes iron ion to be lost and secondary pollution while with will form a large amount of iron cements after alkali neutralization, in practical application, subsequent iron cement Processing cost will be far longer than the energy consumption in the cost and reaction process for adding medicament.

(2)H₂O₂Utilization rate is low.

Fe²⁺And H₂O₂It is both catalyst needed for system and oxidant and the capturing agent of OH, therefore works as its input amount Reaction rate is low when insufficient, and when input amount is excessively high, the quenching reaction of OH makes H again₂O₂Utilization rate reduce.

(3) Fenton system pH narrow application range.

In Fenton reaction, Fe²⁺(general pH 2-3) could effectively be catalyzed H under strongly acidic conditions₂O₂It generates OH, therefore the pH value of water body need to be adjusted before the reaction, it is easy the problems such as corrosion is generated to consersion unit.It needs to use after reaction Acid in a large amount of alkali neutralization water body, increases processing cost, while but also the salinity in water body increases, increasing subsequent Processing difficulty.

Utility model content

The purpose of this utility model is exactly to provide a kind of based on Fenton to solve the above-mentioned problems in the prior art The sewage disposal system of technology.

The purpose of this utility model is achieved through the following technical solutions:

Based on the sewage disposal system of Fenton technology, including it is sequentially connected

Sandfiltration pot has the structure of the pollutant in retention sewage；

Fenton reactor is handled by Fenton's reaction by the sewage in it, specifically using active carbon as urging Agent generates hydroxyl radical free radical with hydroperoxidation to degrade to the pollutant in sewage；

Reaction tank, for removing hydrogen peroxide extra in Fenton reactor；

Clear water reserviors, for adjusting the pH value of sewage in it.

Preferably, in the sewage disposal system based on Fenton technology, between the sandfiltration pot and Fenton reactor Pipeline on be provided with the feed opening for adding hydrogen peroxide and the pipe-line mixer positioned at the feed opening rear end.

Preferably, in the sewage disposal system based on Fenton technology, the Fenton reactor is that light helps Fenton anti- Answer device.

Preferably, one group of UV lamp in the sewage disposal system based on Fenton technology, in the Fenton reactor It is embedded in active carbon, one of UV lamp is coaxial with reactor, other UV lamps are rounded to be distributed and with the axis of Fenton reactor Line is the center of circle.

Preferably, in the sewage disposal system based on Fenton technology, blender is provided in the reaction tank.

The advantages of technical solutions of the utility model, is mainly reflected in:

This programme deft design, structure is simple, and active carbon had both been used as adsorbent or had been used as catalyst, and one to make by absorption With making pollutant be adsorbed on activated carbon surface, enrichment is formed, the content of pollutant is reduced；Activated carbon catalysis H simultaneously₂O₂It is formed OH free radical greatly improves reaction efficiency sufficiently with pollutant reaction, degradation, also, active carbon during the reaction not as Reactant participates in reaction, and the amount of active carbon will not be reduced with reaction, therefore greatly reduce pharmaceutical use, eliminates and adds repeatedly The troublesome operation of adding medicine, while sludge yield is reduced, reduce operating cost.

This technology directly uses commercial active carbon, does not need to prepare, and solving traditional heterogeneous Fenton technology makes Catalyst preparation higher cost is easily obtained, convenient for applying and reduce use cost.

It is combined using activated carbon catalysis and UV, has widened the pH scope of application of reaction system, can reach in neutral conditions To preferable treatment effect.

The adding mouth of hydrogen peroxide is arranged on pipeline, the structure of Fenton reactor can be simplified, while passing through mixing Device is entering realization uniformly mixing between Fenton reactor, and it is uniform to be conducive to the subsequent OH free radical for making to generate when reacting It is distributed in the region of sewage, to realize the fully degraded of each regional pollution object of each sewage, improves treatment effect, in conjunction with chemical feed pipe Road can reduce dosing difficulty and operational danger, realize the unification of efficiency and safety.

In addition, being improved relative to by the class Fenton technology of object carried metal or metal oxide as catalyst The stability of catalyst, need not worry about cause because of metal loss catalyst effect decline, and avoid metal from The secondary pollution of son.

Increase UV system, there are synergistic effects to Catalytic Decomposition of Hydrogen Peroxide using UV and active carbon, and H can be improved₂O₂Benefit With rate, and oxidability is enhanced, shows more advantages in terms of processing high concentration, waste water difficult to degrade and poisonous and harmful； In addition, the effect uniformly cooperateed with can be effectively realized by the reasonable layout of UV lamp pipe, to improve synergy.

Detailed description of the invention

Fig. 1 is the sewage disposal system of the utility model；

Fig. 2 is the structural schematic diagram of the Automatic Dosing pipeline of the utility model；

Fig. 3 is the Longitudinal cross section schematic of the Fenton reactor of the utility model；

Fig. 4 is the cross-sectional view of the Fenton reactor of the utility model.

Specific embodiment

The purpose of this utility model, advantage and feature will carry out figure by the non-limitative illustration of preferred embodiment below Show and explains.These embodiments are only the prominent examples using technical solutions of the utility model, all to take equivalent replacement or wait Effect transformation and formed technical solution, all fall within the requires of the utility model protection within the scope of.

In the description of scheme, it should be noted that term " center ", "upper", "lower", "left", "right", "front", "rear", The orientation or positional relationship of the instructions such as "vertical", "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, It is merely for convenience of description and simplification description, rather than the device or element of indication or suggestion meaning there must be specific side Position is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.Also, in retouching for scheme It is proximal end by the direction of proximal operator using operator as reference, the direction far from operator is distal end in stating.

The sewage disposal system based on Fenton technology disclosed with reference to the accompanying drawing to the utility model is illustrated, and is used In the processing of biochemical sewage, as shown in Fig. 1 comprising sequentially connected

Collecting pit 1 is connect, for collecting biochemical sewage with biochemical sewage water outlet；

Sandfiltration pot 2 connects collecting pit 1 by the conveyance conduit with pump 8, has the knot of the pollutant in retention sewage Structure；

Fenton reactor 3, for being handled by Fenton's reaction by the sewage in it；

Reaction tank 4, for removing hydrogen peroxide extra in Fenton reactor；

Clear water reserviors 5, for adjusting the pH value of sewage in it.

Wherein, the sandfiltration pot 2 can be known various types of sandfiltration pots, can be effective by such as quartz sand Retention remove suspended matter, organic matter, colloidal particles, microorganism, chlorine, odor and part heavy metal ion etc. in water, finally Achieve the effect that reduce water turbidity, and reduce the amount for the pollutant that subsequent Fenton's reaction needs to degrade, advantageously reduces subsequent Processing load.

As shown in Fig. 1, the sandfiltration pot 2 connects the Fenton reactor 3 by pipeline, and sets on the pipeline It is equipped with the feed opening 6 for adding hydrogen peroxide and the pipe-line mixer 7 positioned at the feed opening rear end, it is fragrant so as to simplify The feeding structure of reactor 3, and can guarantee before entering Fenton reactor, sewage is filled with hydrogenperoxide steam generator Divide mixing, to guarantee subsequent reaction uniformity, adequacy and efficiency.

In addition, since hydrogen peroxide has stronger corrosivity to human skin, when hand-stuff easily give operator with Next dangerous, therefore, as shown in Fig. 2, the feed opening 6 is also connected with Automatic Dosing pipeline 9, and the Automatic Dosing pipeline 9 wraps The pipeline 91 of the detachably connected dosing mouth 6 is included, control valve 92 is disposed on the pipeline 91, flowmeter 93, is added Teat pipette 94 and quick union 95 positioned at free end of pipeline, the control valve 92, flowmeter 93, dosing pump 94 are all connected with control dress It sets, when dosing, the outlet end of ton bucket or groove tank car equipped with hydrogen peroxide is connected to the chemical feed pipe by stainless steel tube etc. It on the quick union 95 on road 9, opens control valve 92 and simultaneously starts dosing pump 94, by dosing pump 94 by the mistake in ton bucket or groove tank car Hydrogen oxide is introduced at dosing mouth 6 to realize accurate, quick dosing, had both improved the degree of automation of system, and had kept away simultaneously Manpower-free operates security risk that may be present, improves safety.

The Fenton reactor 3 be preferably light help Fenton reactor, specifically from the point of view of, as shown in Fig. 3, the light helps Fenton Reactor includes that the bottom of tank body 31 described in tank body 31 is provided with inlet 34, and top is provided with liquid outlet 35, the tank body 31 Inner cavity in be provided with certain depth and cover the granular active carbon 32 of tank body cross section, also, the active carbon 32 at least upper and lower ends are respectively arranged with filter screen 36,37, and the mesh number of the filter screen 36,37 is not less than 30 mesh, this be by In active carbon after a period of use, the pollutant adsorbed thereon will affect its absorption property, while also will affect its catalysis Performance, it is therefore desirable to carry out backwash, therefore when in order to avoid backwash, active carbon flushes out tank body by water flow and causes to be lost, and passes through Filter screen limits it, to avoid running the appearance of material problem.

As shown in Fig. 4, inserted with one group of UV lamp being electrically connected with control device 33, the UV lamp in the active carbon 32 One in 33 is coaxial with reactor 3, and other UV lamps 33 are rounded and wait gap distributions, and the original that they are enclosed is with sweet smell The axis of reactor 3 is the center of circle, by being effectively distributed UV lamp, so that ultraviolet light can be effectively to each region in sewage It is irradiated.

As shown in Fig. 1, the blender 41 connecting with control device and oxidation-reduction potential are provided in the reaction tank 4 Detector 42 makes the oxidation-reduction potential in waste water reach setting value by adding catalyst；It is equally set in the clear water reserviors 5 It is equipped with the blender 51 connecting with control device and PH meter 52, by addition acid or alkali so that the pH value of water outlet reaches discharge mark It is quasi-.

When carrying out biochemical sewage processing using the upper sewage disposal system based on Fenton technology comprising following steps:

S0, sewage are collected in collecting pit 1 first, and the COD of collected biochemical sewage is between 100-150mg/L.

S1, after reaching a certain amount of, the sewage transport in collecting pit 1 is filtered by starting pump into sandfiltration pot 2, is removed Suspended matter, particulate matter in sewage etc. when filtering, make flow rate of water flow control in 8-10m/h, excessive to avoid flow velocity, cause It filters effect variation and flow velocity is too small, lead to the problems such as filter efficiency is low, and cost of investment will increase.

S2 introduces the internal Fenton reactor that active carbon is housed, passes through after mixing the water outlet of sandfiltration pot 2 with hydrogen peroxide Light helps Fenton's reaction to handle sewage,

When specific operation, hydrogen peroxide is added into pipeline by feed opening and makes the mass fraction of the hydrogen peroxide of addition (hydrogen peroxide is in the content in the sewage containing hydrogen peroxide) is then made by pipe-line mixer between 0.2 ± 0.05% Hydrogen peroxide is mixed with the waste water in pipeline.When Fenton reactor is intake, control the pH value into water between 6 ± 0.5, in sweet smell Ultraviolet light is carried out while reaction in reactor 3, the wavelength of the ultraviolet light is preferably between 254 ± 5nm；It is effectively purple External dose is 25 ± 1mWs/cm², also, controlling sewage to help the reaction time in Fenton reactor 3 in light is 1 ± 0.1h, is passed through Experimental study discovery, under the conditions of above-mentioned ultraviolet light and time, Fenton's reaction efficiency highest, contaminant removal efficiency highest, most The COD being discharged eventually can be lower than 50mg/L, if each parameter is further promoted, the removal efficiency of pollutant is not obviously improved, simultaneously Also cause the power loss for the treatment of effeciency and ultraviolet lamp；Conversely, pollutant is gone if each process conditions are lower than above-mentioned preferred parameter Except efficiency reduces obviously, it is unable to reach effluent quality requirement.

When light helps Fenton's reaction, on the one hand active carbon is used as adsorbent, and pollutant is adsorbed on its surface, is formed rich Collection, so that pollutant be absorbed and filter；On the other hand, active carbon forms OH free radical as catalyst, catalyzing hydrogen peroxide, Meanwhile reaction system is under the irradiation of ultraviolet light, the hydroxide ion in activated carbon catalysis water can directly generate hydroxyl free Base, the effect of light enhancing are mainly that H2O2 is catalytically decomposed in the presence of synergistic effect in ultraviolet light and active carbon, are greatly improved peroxide The decomposition rate for changing hydrogen, promotes the generation of hydroxyl radical free radical, reaction process is as follows:

H₂O₂→·OH+OH^-

H₂O₂+hv→2·OH。

Since hydroxyl radical free radical has extremely strong oxidisability, the OH in solid liquid interface that light Fenton generates is certainly By base and pollutant reaction, organic pollutant is degraded to CO2, H2O and inorganic salts, to reach reduction waste water COD, only The purpose for changing waste water, to greatly improve reaction efficiency.

Also, OH free radical has following characteristics in degrading waste water when pollutant:

(1) OH is the intermediate product of advanced oxidation processes, induces subsequent chain reaction as initiator and occurs, drops to hardly possible The substance of solution is particularly suitable.

(2) OH can be oxidized without selectively reacting with any pollutant in waste water as CO2, water or nothing Machine salt, without generating new pollutant.

(3) OH oxidation is a kind of physical and chemical process, is easier to control, reaction condition is mild, easily practices.

S3 makes the water outlet of Fenton reactor 3 introduce reaction tank 4, and the oxidation-reduction potential of the sewage in it (ORP) is adjusted Section specifically adds under the action of blender 41 a certain amount of sodium hydrogensulfite (NaHSO3) to 0 ± 0.1mV or so, thus Make itself and hydroperoxidation extra in sewage, until hydrogen peroxide is depleted that oxidation-reduction potential (ORP) reaches 0mV Left and right stops, and the oxidation-reduction potential of the oxidation-reduction potential and natural water that are discharged at this time is close.

The water outlet of reaction tank 4 is introduced clear water reserviors 5, and attaches suitable sodium hydroxide by the sewage into it by S4 Or sulfuric acid, and the pH value of control water is counted between 6-9 by PH.

S5, the water in clear water reserviors 5 draw discharge by emptying pump (not shown).

Still there are many embodiment, all technologies formed using equivalents or equivalent transformation for the utility model Scheme is all fallen within the protection scope of the utility model.

Claims (6)

1. the sewage disposal system based on Fenton technology, it is characterised in that: including sequentially connected

Sandfiltration pot (2) has the structure of the pollutant in retention sewage；

Fenton reactor (3) generates hydroxyl radical free radical to sewage with hydroperoxidation using active carbon (32) as catalyst In pollutant degrade；

Reaction tank (4), for removing hydrogen peroxide extra in Fenton reactor；

Clear water reserviors (5), for adjusting the pH value of sewage in it.

2. the sewage disposal system according to claim 1 based on Fenton technology, it is characterised in that: the sandfiltration pot (2) It is provided with the feed opening (6) for adding hydrogen peroxide on pipeline between Fenton reactor (3) and is located at the feed opening The pipe-line mixer (7) of rear end.

3. the sewage disposal system according to claim 2 based on Fenton technology, it is characterised in that: the feed opening (6) It is detachably connected with Automatic Dosing pipeline (9).

4. the sewage disposal system according to claim 1 based on Fenton technology, it is characterised in that: the Fenton reactor It (3) is that light helps Fenton reactor.

5. the sewage disposal system according to claim 4 based on Fenton technology, it is characterised in that: the Fenton reactor (3) one group of UV lamp (33) in is embedded in active carbon, and one of UV lamp (33) is coaxial with reactor (3), other UV lamps (33) rounded to be distributed and using the axis of Fenton reactor (3) as the center of circle.

6. the sewage disposal system according to claim 1 based on Fenton technology, it is characterised in that: the reaction tank (4) Inside it is provided with blender (41) and oxidation-reduction potential detector (42).